Seizure Duration and Electroconvulsive Therapy in Major Depressive Disorder

This cohort study evaluates the association between the length of electroconvulsive therapy–induced seizure and remission rate of depression in patients with major depressive disorder.


Introduction
Electroconvulsive therapy (ECT) is a vital treatment for individuals with the most severe depression, 1 but treatment results differ substantially between patients. 2,3One suggested area of research to understand these differences is the interplay among concurrent medication, seizure duration, and treatment effectiveness.Swedish clinical guidelines currently recommend a motor activity duration of at least 20 seconds, with electroencephalographic (EEG) activity typically exceeding the motoric seizure

Key Points
Question What is the association between seizure duration during electroconvulsive therapy and remission rates from major depressive disorder?
Findings In this cohort study of 6998 patients, the group with the shortest seizure duration of less than 20 seconds had the lowest remission rate of 27.2% compared with a 39.3% overall remission rate.The highest remission rate was found in the group with seizure duration of 60 to 69 seconds.

Meaning
The study found that seizure duration was associated with electroconvulsive therapy outcome.

+ Invited Commentary
+ Supplemental content by 10 to 20 seconds.Seizure duration shorter than this recommendation is considered inadequate and indicates the need for restimulation. 4,5Epileptic activity exceeding 120 to 180 seconds is associated with an increased risk of adverse events. 5Within this window of 20 to 180 seconds, however, it remains ambiguous whether longer seizure duration is beneficial for therapeutic outcomes.7][8][9] Larger studies in this area are required, and these studies should take potential confounding factors into account.[17] Thus, the aim of the current large-scale study was to explore the association between seizure duration, potential confounding variables, and ECT treatment outcome using national databases.We hypothesized that longer seizure duration is associated with better treatment outcomes, while anticonvulsive medication is associated with shorter seizures and lower remission rates.

Study Design and Setting
This nationwide register-based, population-based cohort study used the Swedish National Quality Register for ECT (Q-ECT) as the data source.The Q-ECT, established in 2008, collects information on ECT treatments.Since 2012, all hospitals offering ECT in Sweden have been reporting data to Q-ECT.
In 2019, the register had a coverage rate of 93% of all patients receiving ECT in Sweden. 18The Swedish Ethical Review Authority approved this study and waived the informed consent requirement because all data used were pseudonymized, and individuals were not identifiable at any time.
However, patients have accepted being included in the Q-ECT and have been informed that it is used for research.We followed the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) reporting guideline.

ECT Method
The treatments were performed in hospitals offering ECT in Sweden.The anesthetic agents used were propofol, 1 to 1.5 mg/kg, or thiopental, 2 to 4 mg/kg.The muscle relaxant used was succinylcholine, 0.5 to 1 mg/kg.The ECT devices used were either Thymatron (Somatics LLC) or MECTA (Mecta Corp).Pulse amplitude, frequency, duration, and charge were individualized for optimal treatment results during the series and initially established mainly based on sex and age but not a multiple of the lowest stimulus that induced some seizure activity.
Seizures were monitored routinely during every treatment, including the observed duration of motor activity, the cardiovascular response, and EEG seizure duration measured with bitemporal EEG electrodes creating a single EEG channel.The EEG seizure duration was selected as the variable for measuring seizure length because it is considered to provide a more accurate representation of the seizure in the brain than the observed motoric seizure and is therefore the variable used in Q-ECT.
The analysis included only the seizure duration from the first treatment session because duration data from subsequent sessions were not available.

Participants and Variables
The inclusion criteria were as follows: unipolar major depressive disorder (MDD) as the indication for treatment according to To assess the outcome, the MADRS-S was used within 1 week after the last ECT session.The MADRS-S consists of 9 items, with the patient rating each item from 0 (no distress at all) to 6 (maximum distress). 19The maximum score possible was 54 points, and a cutoff score of less than 10 points was defined as remission in this study. 20

Statistical Analysis
Data were managed and analyzed using SPSS Statistics 25.0 (IBM Corp

Descriptive Data
Among the 6998 patients who met the inclusion criteria, 4229 (60.4%) were female and 2769 (39.6%) were male, with a mean (SD) age of 55.2 (18.6) years.Further details on the patient population are presented in Table 1.The number of patients in each seizure category are provided in the eFigure in Supplement 1.

Main Results
Among the included patients, 2749 (39.3%) achieved remission after treatment.For those who achieved remission after treatment, the median (IQR) number of sessions was 7 (6-9).The corresponding median (IQR) number of sessions for the nonremission group was 8 (6-10).

Discussion
The findings of this study support the hypothesis of an association between seizure duration during the first treatment session and remission within 1 week after ECT.This result is consistent with data from the double-blind experimental study by Cronholm and Ottosson. 21In their study, the group of patients whose seizures were shortened by lidocaine medication had significantly worse treatment outcomes compared with the control group, although the lidocaine-modified group had a higher number of total treatment sessions. 21Similarly, a larger register-based study by Kronsell and colleagues 22 found that patients receiving low-dose anesthetics had superior treatment outcomes compared with those receiving high-dose anesthetics.The 2 patient groups differed in seizure duration and number of treatment sessions, with the low-dose group having longer seizure duration, requiring shorter treatment series, and having higher remission rates. 22Previous observational  a Nagelkerke R 2 in the logistic regression models was between 0.12 and 0.13 for all significant models.Adjusted R 2 in the linear models was between 0.01 and 0.02 for all significant models.studies, which did not find an association between seizure duration and treatment response, had smaller sample sizes (29 patients 23 and 40 patients, 23 respectively).
1][12] When adjusting for age in a multivariate regression model, the association between remission and seizure duration was more pronounced since older age was associated with shorter seizure duration and therefore could have been a confounder in previous research.
Concurrent medication with lamotrigine or benzodiazepines was found to be associated with shorter seizure duration, with the association being most pronounced for lamotrigine treatment.
Furthermore, patients treated with lamotrigine had significantly lower remission rates (Table 4).
6][17] It may seem surprising that medications with anticonvulsant properties are combined with ECT given that a high-quality seizure is important for the optimal ECT outcome.The lack of data associating seizure duration or anticonvulsant medication with therapeutic outcomes could be an explanation, along with the frequent use of these medications for MDD that did not respond to antidepressants.The concurrent use of anticonvulsants or benzodiazepines in some hospitals may partly explain the marked difference in the treatment effect of ECT reported in some recent studies. 2,3,24Yet, the association between lower remission rates and lamotrigine or benzodiazepine treatment could be explained by factors other than seizure duration.The severity of the underlying condition along with the potential comorbidities leading to the prescription of these medications may themselves be confounding factors in the lower remission rate after ECT among patients receiving lamotrigine or benzodiazepines compared with those not receiving these medications.
Higher electrical charges were found to be associated with higher remission rates and shorter seizure duration, which is consistent with previous research. 25,26The association between thiopental vs propofol and longer seizure duration was also expected. 27Nevertheless, the association of higher electrical dose with shorter seizure duration and higher remission rates, and thiopental with longer seizure duration and lower remission rates, highlight the underlying complexity of these associations and call for caution in interpreting the results.

Strengths and Limitations
The strengths of this study are the combination of a large study cohort, a nationwide register-based design, and use of a standardized assessment tool for remission rates, which not only provided the statistical power to adjust for potential confounding variables but also facilitated the generalization of the results.The main model associating seizure duration with remission indicated age and MDD with psychotic features as important potential confounding factors but did not control for anesthetic agent or dose, electrical charge, or concurrent medication use because these factors may affect both seizure duration and remission rate, thus being intermediate in the potential causal chain.However, they were included in a sensitivity model, which showed similar associations.
The limitations of this study include the uncertainty of whether the observed association between seizure length and treatment outcome is causal.We were not able to control for the possible confounder of duration of antidepressant treatment.Furthermore, with the mechanics of seizures being complex, the seizure duration may be associated with good treatment quality, but other factors, such as seizure intensity or seizure generalization, might play a larger role in the antidepressant properties of ECT.These aspects of the seizure were not investigated in this study.
Additionally, this study investigated only patients treated with unilateral electrode placement because this is the most common electrode placement in Sweden.Therefore, the results need to be confirmed in samples treated by bitemporal electrode placement before the conclusions can be generalized to treatment with bitemporal electrode placement.

JAMA Network Open | Psychiatry
Downloaded from jamanetwork.comby guest on 07/28/2024 31, 2019, because Q-ECT became national in 2012.In cases where a patient received multiple ECT series during this period, only the first registered treatment series was analyzed.Furthermore, only those who underwent treatment with unilateral electrode placement were included.
). Seizure duration was categorized to assess nonlinear associations, and the characteristics of the study population were stratified into categories.Anesthetic dose and electrical charge were divided into 2 groups based on standardized median values for age and sex categories (eTable 1 in Supplement 1).Logistic regression models were created with seizure duration as an independent variable to calculate odds ratios (ORs) for remission.Age and subtype of MDD (with or without psychotic features) were adjusted for in the main model.A forest plot was created to demonstrate the association.In addition, electric charge, anesthetic agent, and dose were adjusted for because they are potential confounding variables in a sensitivity model.Linear regression analyses were performed to compare the means in seizure duration among patients with or without concurrent pharmacological treatments.The null hypothesis was rejected at P < .05.Nagelkerke R 2 was used to estimate the goodness of fit in logistic regression models and adjusted R 2 in linear regression models.Two-sided P < .05indicated statistical significance.Data analyses were performed between March 2021 and May 2024.

Table 1 .
Characteristics of the 6998 Study Patients

Table 2 .
Remission as a Variable Associated With Seizure Duration, Unadjusted and Adjusted for Age and Depression Subtype With Psychotic Features

Table 3 .
Association of Age and Depression Subtype With Psychotic Features With Remission and Seizure Duration

Table 4 .
Association of Potential Confounders in Remission With Seizure Duration After Adjustment for Age and Depression Subtype With Psychotic Features Abbreviations: AOR, adjusted odds ratio; NA, not applicable.